Seat for high-speed water craft

ABSTRACT

A shock and vibration absorbing seat for high-speed boats, in which there is provided a base, a seat main body above the base, a plurality of slidably telescoping upper and lower cylinders constituting a pillar structure interposed between the base and the seat main body and containing a damping oil, an annular body rotatable disposed around the lower cylinder, a lock pin slidably supported by the annular body to be urged into any one of several holes provided in said base, a two-link knuckle joint interconnecting the seat main body can be moved only vertically relatively to the annular body without rotation relative thereto, and damping means for operating cooperatively with the damping oil to damp the movement of the seat main body relative to the base near the upper and lower extremities of the movement.

United States Patent [1 1 Sawaki Sept. 11, 1973 SEAT FOR HIGH-SPEED WATER CRAFT, FOREIGN PATENTS OR APPLICATIONS 75 Inventor; Koji Sawaki, Hamakita Japan 873,986 8/1961 Great Britain. 248/400 7 890,311 9/1953 Germany 248/400 [73] Assignee: Yamaha Hatsudoki Kabushiki Kaisha, Shizuoka-ken, Japan [22] Filed July 20 1971 Primary Examiner-Marion Parsons, Jr. Attorney-4101mm & Stern [21] App]. No.: 164,314

[30] Foreign Application Priority Data ABSTRACT v July 20, 1970 Japan ..45/7 ]744 r A shock and vibration absorbing seat for high-speed boats, in which there is provided a base, a seat main 188/289 body above the base, a plurality of slidably telescoping [51 Int. Cl. F16!!! 1 1/30 upper and lower cylinders constituting a pillar structure [58] Field of Search 248/399, 400, 403, interposed between the base and the seat main body 248/405, 418, and containing a damping oil, an annular body rotat- 279 able disposed around the lower cylinder, a lock pin slid- I ably supported by the annular body to be urged into [56] References Cited any one of several holes provided in said base, a two- UNITED STATES PATENTS link knuckle joint interconnecting the seat main body 2,092,669 9 1937 Greve 248/400 can be only vertically relatively the annular 2,212,541 8/1940 183/289 body without rotation relative thereto, and damping 2,892,482 6/1959 Beoletto 248/400 means for operating cooperatively with the dampingoil 3,164,262 1/1965 Price et a1.... 188/289 to damp the movement of the seat main body relative 3,215,426 1 1/1965 Engels 188/289 to the base near the upper and lower extremities of the 3,374,981 3/1968 Stuckenberger et al 248/400 movement 5 Claims, 3 Drawing Figures PATENTED SE? 1 1 I975 SHEET 1 DF 2 SEAT FOR HIGH-SPEED WATER CRAFT BACKGROUND OFTHE INVENTION bodies of the passengers can be substantially eliminated. Furthermore, the seat must be stabilized in the horizontal direction, and any stray rotation around its vertical axis should be prevented. Otherwise, the seat is not only uncomfortable to the user but may be even dangerous.

PRIOR ART A seat in a boat having a fore-,and-aft swingable link or a seat supported by a crosslink and springs or those further provided with an oil damper are known. However, when the soft comfortable feeling of the cushioning effect is emphasized, such a seat has been liableto undergo swinging oscillation in the lateral direction thereof when any vertical shock or impact is cushioned, or bumping to and jumping from the movable extremities of these swingable link and cross-link have occurred in the such cases.

OBJECTS AND SUMMARY OF THE INVENTION Therefore, a primary object of the present invention is to provide a seat which can effectively absorb any impact of vibration ordinarily caused in a high-speed boat.

Another object of the present invention is to provide a seat for absorbing impact or vibration wherein the above mentioned stray rotation can be effectively prevented.

Still another object of the present invention is to provide a seat for absorbing shock or vibration wherein the facing direction of the seat can also be changed freely.

These and other objects of the present invention can be achieved by a novel construction of .a seat adapted to be used on a high-speed boat which comprises a base, a seat main-body provided above the base, a plurality of cylinders constituting a pillar structure interposed between the base and the seat main-body, the plurality of cylinders being telescopically arranged with one slidable within another and containing damping oil, an annular body rotatable coaxially around the plurality of cylinders at the upper portion of the base, a lock pin included in the annular body to be urged into any one of several holes provided in and around the base,

guide means interconnecting the seat main-body to the,

annular body in such a manner that the seat main body can be moved only vertically relative to the annular body but cannot be moved rotationally relative to the latter, resilient means urging the seat main body apart from the annular member and, base, and damping means provided in said plurality of cylinders for restricting the flow of the oil at the upper and the lower extremities of the vertical movement of the seat main body.

The nature, principle, and utility of the present invention will be more clearly understood from the followingdetailed description of the invention when read in conjunction with the accompanying drawings, in which like parts are designated by like reference numerals and characters.

BRIEF DESCRIPTION OF DRAWINGS In the drawings:

FIG. 1 is a left side elevational view, partly in vertical section, showing the essential parts of a seat according to the present invention for a high-speed boat;

FIG. 2 is a sectional view taken along the line II-II in FIG. 1; and

FIG. 3 is a fragmentary front elevational view showing the base portion of the seat shown in FIG. 1.

DETAILED DESCRIPTION Referring now to FIGS. 1 and 2, there is illustrated a seat according to the present invention adapted to be fixed on board a high-speed boat. The seat has a pillar assembly A comprising a lower cylinder 3 which is forcedinto and fixed to a central hole 2 of a base 1 fixed to the boat hull, an annular bearing metal 4 which is inserted in the upper part of the lower cylinder 3 and fixed thereto, for instance, by brazing, and an upper cylinder 6 on which is mounted a seat main body 5, and the lower end of which is inserted through the bearing metal 4 freely slidably along the vertical axis of the pillar A.

The lower end of the lower cylinder 3 is closed by a plug member 8 which is driven into the end by means of a circular bottom plate 7 screw engaging with internal threads on the lower inner surface, of the lower cylinder 3. The lower cylinder 3 contains an oil up to a level near the upper end of the lower cylinder 3. The

plug member 8 comprises a disc part 84 and a centrally I located upward projection 8b, which is further divided into a cylindrical portion 8b and a frustoconical part 8b, located thereabove. The outer diameter of the cylindrical portion 8b is a little smaller than the inner diameter of a central hole 10 of a separating plate 9 fixed to the lower end of the upper cylinder 6.

The outer surface of the separating plate 9 slidably fits the inner surface of the lower cylinder 3. Through the separating plate 9, there is provided a'bent hole 12, the lower end of which opens at 111 in the peripheral wall near the lower end of the upper cylinder 6, and the upper end of the'bent hole 12 is opened at a position on upper surface 9a of the separating plate 9, which is bound by the inner surface of the lower cylinder 3 and the outer surfaceof a reduced diameter part 6a of the upper cylinder 6.

In a space defined by the innerc'ylindrical surface of the lower cylinder 3, the reduced diameter part 6a of the upper cylinder 6, and the upper surface of the separating plate 9, there is provided an annular valve plate 13 which can be freely shifted in the vertical direction along the axis of the pillar assembly A. The inner diameter of the annular valve plate 13 is selected to be slightly greater than the, outer diameter of the reduced diameter part 6a of the upper cylinder 6, and the outer diameter of the valve plate 13 is selected to be slightly smaller than the inner diameter of the lower cylinder 3 which is substantially equal to the outer diameter of the separating plate 9. In other words, the radial breadth of the valve plate 13 is selected to be sufficient to close the upper end of the bent hole 12 provided through the separating plate 9.

At a position slightly above the reduced diameter part 6a of the upper cylinder, a hole 14 is bored through the wall of a cylinder part 6b which is not reduced in diameter, and this hole 14 is closed by the bearing metal 4 when the upper cylinder 6 is near the upper limit position thereof, at a position between the reduced diameter part 6a and the hole 14, there is rigidly provided a stopper ring 29 which limits the upward movement of the upper cylinder 6.

Outwardly of the lower cylinder 3 and between a stepped part la of the base 1 and a ring 15 fitted around the lower cylinder 3, an annular body B is provided in such a manner that it is allowed to rotate around a cylindrical portion formed at the upper end of the base 1. The annular body B is provided with a boss part 16 projecting from one side of the annular body B and containing a lock pin 19. This lock pin 19 is urged by a spring 18 into any one of four holes 17a, 17b, 17c, and 17d of the same diameters which are arranged 90 apart from each other around the periphery of the cylindrical portion 1b of the base 1. The outer end of the lock pin 19 is provided with a threaded portion 19a on which a ring-shaped pulling handle 20 is engagedly mounted.

On the above mentioned boss portion 16, the lower end of a link C is coupled by a horizontally extending bolt 21 and a nut 22, and the upper end of the link C is coupled by another bolt 23 and nut 24 to the lower end of another link C The upper end of the link C is coupled also by means of a bolt and nut to a seatsupport member 25 fixed to the lower surface of the seat main body 5, which is thereby supported.

The seat-support member 25 is a strength member When the upper cylinder is introduced into the lower cylinder 3 through a predetermined distance, the holes 14 provided in the upper cylinder 6 comes under the bearing metal 4 at the upper end ofthe lower cylinder 3, whereby the oil contained in the cylinders flows, through the bent hole 12 and the hole 14, into the annular space defined by the inner peripheral surface of the lower cylinder 3, the reduced-diameter part 6a, and the upper surface of the separating plate 9.

Upon further introduction of the upper cylinder 6 into the lower cylinder 3, the upward projection 8b of the plug member 8 enters the central hole 10 of the separating plate 9. Because the outside diameter of the frustoconical portion 8b, gradually approaches that of the central hole 10 with the introduction of the plug member 8, movement of the oil from the lower portion of the lower cylinder to the upper part thereof is restricted, and the function of an oil damper is thereby created.

The upper cylinder is returned to the original position by the compression spring 26. However, when the which is fixed to and supported on the upper end of the upper cylinder 6. Between the annular body B and the seat-support member 25, a helical compression spring 26 is inserted in such a manner that the spring 26 surrounds the lower cylinder 3 and the upper cylinder 6. Since static loads such as weights of the related members and of the body of the user and dynamic loads imparted at the timean impact is applied thereto are all applied to the spring 26, the spring 26 should be designed to withstand all of these loads. Outside of the spring 26, bellows 27 is provided for a water-tight construction of the seat. Numeral 28 in FIG. 1 designates the liquid level of the damper oil.

In the above described construction, although only one compression spring is employed for providing a resilient force to return the seat main body 5 to its initial position, it is apparent that a plurality of springs may also be employed, or, when it is required, opposingly acting springs may be employed for providing a desired feature of the resilience.

The seat according to the present invention operates as follows. When a vertical load is applied to the seat, the compression spring 26 is first compressed, and the upper cylinder 6 is forced into the lower cylinder 3. During the relative movement of the upper and lower cylinders 6 and 3, the articulated links C, and C, are folded toward each other, and since the lock pin 19 included in the boss portion 16' to which is coupied the link C, is fitted into one of the four holes 17a, 17b, 17c, and 17d, rotation of the seat main body 5 relative to the tively prevented.

hole 14 of the upper cylinder 6 is closed by the bearing metal 4, the valve plate 13 acts to resist the evacuation of the oil captured in the space bounded by the inner surface of the lower cylinder 3, the outer surface of the reduced-diameter part 6a, and the upper surface of the separating plate 9 through the bent hole 12. In this case also, the function of an oil damper is thereby caused, and the rising movement of the upper cylinder, and hence that of the seat main body 5, are thereby slowed down.

When it is desired to change the facing direction of the seat main body 5, the lock pin 19 is .pulled out outwardlyagainst the resilient force of the spring 18, so that the lock pin 19 is pulled out of engagement with the hole 17a and then after the seat has been turned, reengaged with another of the hole 171), 17c, and 17d.

I claim:

1. In a boat seat of the type having a base, a seat support member carrying a seat and provided apart from and above said base, a pillar structure including slidably telescoping upper and lower cylinders interposed between the base and the seat support member and containing a damping fluid, a helical compression spring surrounding the pillar structure and urging the seat support member apart from the base, and damping means for cooperating with the damping fluid to damp the movement of the seat relative to the base, the improvement comprising means providing on the upper portion of said base, a cylindrical portion having a plurality of radial holes in the peripheral serface thereof in angularly spaced apart relationship and defining therein a central hole for fixedly receiving the lower part of said base, and annular member rotatably mounted on and around said cylindrical portion, a lock pin radially slidably supported in said annular member to fit into any one of said radial holes, and guide means disposed between said seat support member and base permitting said seat support member to move vertically without substantial angular displacement about the vertical axis of the pillar structure relative to said base, said helical compression spring being disposed between and resting on the upper surface of said annular member and the lower surface of said seat support member.

2. The boat seat as claimed in claim 1 in which said guide means is defined by a two-link knuckle joint interconnecting said seat support member and said base.

3. The boat seat as claimed in claim 1 in which said damping means include first means for damping the movement of said support member relative to said base near the upper extremity of said movement and second means for damping the movement of said seat support member relative to said base near the lower extremity of said movement.

y 4. The boat seat as claimed in claim 3 in which said first damping means includes means defining an annular space between the opposing inner and outer surfaces of the upper and lower telescoping cylinders, means providing a bent hole connecting said annular space and the interior of said inner cylinder at a position near the lower end of the upper cylinder and provided with a valve plate restricting flow of the damping fluid and a hole through the wall of said upper cylinder at a position slighty above said bent hole serving to communicatively connect the annular space to the interior of the'upper cylinder when the upper cylinder is below a position near the upper extremity thereof.

5. The boat seat as claimed in claim 3, in which said second damping means includes a separating plate having a central hole fixed to the lower end of one of the cylinders, and a plug member fixed to the lower end of the cylinder, said plug member having a central projection for insertion in said central hole to restrict flow of the fluidfor damping near the lower extremity of the movement of the main seat body.

* t 4 l t 

1. In a boat seat of the type having a base, a seat support member carrying a seat and provided apart from and above said base, a pillar structure including slidably telescoping upper and lower cylinders interposed between the base and the seat support member and containing a damping fluid, a helical compression spring surrounding the pillar structure and urging the seat support member apart from the base, and damping means for cooperating with the damping fluid to damp the movement of the seat relative to the base, the improvement comprising means providing on the upper portion of said base, a cylindrical portion having a plurality of radial holes in the peripheral surface thereof in angularly spaced apart relationship and defining therein a central hole for fixedly receiving the lower part of said base, and annular member rotatably mounted on and around said cylindrical portion, a lock pin radially slidably supported in said annular member to fit into any one of said radial holes, and guide means disposed between said seat support member and base permitting said seat support member to move vertically without substantial angular displacement about the vertical axis of the pillar structure relative to said base, said helical compression spring being disposed between and resting on the upper surface of said annular member and the lower surface of said seat support member.
 2. The boat seat as claimed in claim 1 in which said guide means is defined by a two-link knuckle joint interconnecting said seat support member and said base.
 3. The boat seat as claimed in claim 1 in which said damping means include first means for damping the movement of said support member relative to said base near the upper extremity of said movement and second means for damping the movement of said seat support member relative to said base near the lower extremity of said movement.
 4. The boat seat as claimed in claim 3 in which said first damping means includes means defining an annular space between the opposing inner and outer surfaces of the upper and lower telescoping cylinders, means providing a bent hole connecting said annular space and the interior of said inner cylinder at a position near the lower end of the upper cylinder and provided with a valve plate restricting flow of the damping fluid and a hole through the wall of said upper cylinder at a position slighty above said bent hole serving to communicatively connect the annulaR space to the interior of the upper cylinder when the upper cylinder is below a position near the upper extremity thereof.
 5. The boat seat as claimed in claim 3, in which said second damping means includes a separating plate having a central hole fixed to the lower end of one of the cylinders, and a plug member fixed to the lower end of the cylinder, said plug member having a central projection for insertion in said central hole to restrict flow of the fluid for damping near the lower extremity of the movement of the main seat body. 